Intel DP67BG

Unique to Intel is the I/O panel’s “Back to BIOS” button, a feature that temporarily disables custom settings so that users can boot up and make changes. This feature takes away the need to “CLR_CMOS” after a boot failure, and even beats the boot failure prevention routines of most other brands by not losing any of your customizations.

A good overall layout begins with triple-slot spacing for graphics cards, allowing better airflow to the top card. The lower x16-length slot borrows eight lanes from the upper slot whenever a card is installed there, using automatic pathway switches to change from x16/x0 to x8/x8 modes. That good layout continues with a front-panel audio connector located above the lower graphics card slot, placing it closer to the ports it serves. Putting the Port 80 diagnostics display next to the DIMM slots finalizes a design where no important features are blocked by installed cards or the CPU cooler.

All of those features lend themselves to the development of a micro-ATX variant, as does the location of its SATA connectors. While using one basic design to serve two different markets might not seem very innovative, it actually facilitates the only product in today’s roundup that gets zero layout complaints.

Layout aside, we were perplexed by some of the board’s other features, or lack thereof. We were surprised, for example, not to find any front-panel USB 3.0 header, given that ASRock credited the company for this universal interface’s design. Conversely, we question the addition of IDT’s 89HMPEB383ZA PCIe-to-PCI bridge, along with two connected PCI slots and a FireWire controller, since it was Intel that felt legacy PCI was no longer worth integrating into the chipset.

Thanks for the prompt review of the boards! I would like to see any differences in quality of audio and networking components. For example, what chipsets are used for Audio in each board, how that affects sound quality. Same thing for network, which chipset is used for networking, and bandwidth benchmarks. If you guys make part 2 to the review, it would be nice to see those features, as I think that would be one more way these boards would differentiate themselves.

1. SLI "support". Do not understand why end-user has to pay for mythical SLI "sertification" (all latest Intel chips support SLI by definition) and a SLI bridge coming with the board (at least 75% of end users would never need one). The bridge should come with NVIDIA cards (same as with AMD ones). Also, in x8/x8 PCIe configuration nearly all NVIDIA cards (exept for low-end ones) will loose at least 12% productivity - with top cards that is about $100 spent for nothing (AMD cards would not see that difference). So, If those cards are coming as SLI-"sertified" they have to be, in the worst case, equipped by NVIDIA NF200 chip (though, I would not recommend to by cards with this PCIe v.1.1 bridge). As even NVIDIA GF110 cards really need less than 1GB/s bandwidth (all other NVIDIA and AMD - less than 0.8GB/s)and secondary cards in SLI/CrossFire use no more than 1/4 of that, a normal PCIe v.2.0 switch (costing less than thrown away with x8/x8 SLI money) will nicely support three "Graphics only" x16 slots, fully-functional x8 slot and will provide bandwidth enough to support one PCIe v.2.0 x4 (or 4 x x1) slot(s)/device(s).

2. Do not understand the author euphoria of mass use of Marvell "SATA 6G" chips. The PCIe x1 chip might not be "SATA 6G" by definision, as it woud newer be able to provide more than 470GB/s (which is far from the standard 600GB/s) - so, I'd recommend to denote tham as 3G+ or 6G-. As it is shown in the upper section, there is enough bandwidth for real 6G solution (PCIe x8 LSISAS 2008 or x4 LSISAS 2004). Yes, will be a bit more expensive, but do not see the reason to have a palliative solutions on $200+ mobos.

To rmse17Do not think they use anything better than native southbridge or Realtec controller. Adding better chip will add some cents to the board cost. And, anyway, these boards are not positioned as "Hard gaimer" ones - more like low-middle class (though, with proper design LGA1155 boards may be exellent gaming boards.

@Lutfij - they're over the price limit for this article.@stasdm - SLI - it's a trick nVidia pulls to make money from every mobo sold (with SLi support). Mythical or not, intel's PCHs DO NOT support SLi by default - they do not support SLi at all. It's all by means of nV's driver and BIOS-included string. Everything is supported by the fact that PCI-Express has enough bandwidth to sustain two cards - that wasn't exactly always possible with PCIe 1.0 lower bandwidth on previous-gen chipsets. About SATA 6G - most of the crowd won't utilize even half of the SATA ports at all. If they will, then probably they'll treat them only as additional sata ports with no regard to their speed. Enthusiasts will attach their SSDs to PCIe in extreme cases or at least to intel's own controller, which in turn handles SATA internally in PCH without using PCIe. External controllers are out of scope for 99% of the crowd, mind you. For example - show me PCIe based 4x SATA (or SAS, for availablity sake) controller with RAID 5 support below 300$. Any? Don't think so, save one crappy LSI. It's budget side, man. If you want top-of-the-line, get server board for storage and second, gaming, or performance rig, but that's not what's this article about.

@Author - Thank you for great comparison. Too bad it ended on counting what does not work on the boards. It seems that atm intel and ASUS have the most mature and reliable products. However, I'd still wait for second-gen P67 boards (in Q2?), before upgrading. Still wondering what to do with my 1366 rig.

@Vatharian1. As SLI is software only solution (BIOS string is just a trick), that is why it is by default supported by Intel (AMD too).2. Even PCIe 1.1 bandwidth is over the head to support four-way SLI/CroaaFire. They use a few administrative tools from 2.0 now - but that's all. The difference between AMD and NVIDIA is that for at least two generations already AMD uses standard PCIe protocol, but at 1/4 of the standard speed. NVIDIA used even slower speed at pre-GF110 chips (that's why they decided not to issue 512-cores NF100 cards - they would not be faster than "abridged" version), with non-stsndard "Graphics PCIe" protocol (Basically PCIe, but w/o parity control, using parity bits for data, w/o distributed clock support and some other "speed-up" tricks. On x8 bus their cards have to return to standard PCIe protocol and automatically loose the "no parity" part of the bandwidth.

@VatharianAs for "budget mobos - carrent dual-core Atoms are enough for most non-heavy graphics tasks. To position LGA1155 processors along with them - to insult Intel engineers, created these chips. That's the hi-end product, improperly used.

Good article... But these are still 1st gen boards and at $150~200 for feature sets that's the same for an AMD Chipset board is not impressive. Obviously, the new CPUs are usually faster than AMD of course. Which helps to regulate AMD into the low-end ~ mid-range computer systems.

Still not impressed with intel's locking down flexibility of their boards & CPUs. But that's intel for you. Sandy Bridge would be great for my video encoding... but it most likely not work for me... blah blah.

A quick look at overclock results and tbh intel SB has killed the excitement of motherboards. After looking for features you want (even then they're all similar to a degree) all that's left is to match up the colour of your curtains.

The Deluxe version of that Asus board comes with a USB 3.0 drive bay, but I was a little confused as to why one would want that if their Case already has front faced USB 3.0 ports like the one I got does.

I'll have to look at the connections again, but can you use that same cable to plug into the board on the inside or do those case USB 3.0 ports have to be connected to the rear of the board? Personally I think the drive bay including just 2 USB ports looks kind of lame and I'd much, much rather use the ports on my case....even if that means running a cable out the back of the case, (nobody looks at the back anyway).

@stasdm - Dual core Atoms are strangely rare. To be honest their performance is an insult considering the price you pay for them. For compact PC in ITX case, sure, but SFF is pricey, I'd say, comparable to far-faster normal microATX format. Also very simple, common situation: I want to use budget mobo, decent CPU (not the slowest one), and I'd like to have TV tuner card, some SB Audigy2 lying around, (or ASUS Xonar :P ), still better than the dreaded Realtek. Maybe some used PCIe graphics, so my daughter can play Sims 3 without a problem. So there is a problem, because I do not know any not-SFF Atom board. It's either PCIe or PCI, and only single slot. If you want a typing machine, go buy used PC for 40$ or even less.